Poster ID: 1471 HIGHLY EFFICIENT ACTIVATED CARBON FROM PALM SHELL AS AN ADSORBENT OF TOXIN/POISON IIUM Research, Invention and Innovation Exhibition 2013.

Slides:

Advertisements

Similar presentations

Conclusions  Palm kernel fibre has been shown to have a fairly high capacity for the removal of copper ions from solution.  It was also revealed that.

Advertisements

The Study of LPG Adsorption Ability Using Carbon Adsorbent Test Bed for Carbon Adsorbent Prepared from Waste Materials Imran Syakir Mohamad Safarudin Gazali.

Facile synthesis and hydrogen storage application of nitrogen-doped carbon nanotubes with bamboo-like structure Reference, Liang Chen et.al, international.

Removal of Cu(II) ions from aqueous solution effluent using Melamine-Formaldehyde-DTPA resin in a fixed-bed up-flow column By Ahmad Baraka Supervisors.

Methane Storage: Gas storage is determined gravimetrically. Methane storage is primarily determined at 500 psig (3.5 MPa) and K, for application.

Preparation & Characterization of heterogeneous catalyst

ADSORPTION ION EXCHANGE RESINS

Preparation of catalysts - ExercisesDalian, March-April 20121/xx DICP Course - Dalian, 2012 Preparation of solid catalysts Exercises Supported by the Chinese.

ADSORPTION by Pranoy Pratik Raul.

Acknowledgments The author thanks Lindt Chocolates for providing the cocoa shells, the National Science Foundation (Grant No. NSF CBET ), the.

Juris Burlakovs, Maris Klavins, Zane Vincevica-Gaile, and Mara Stapkevica University of Latvia MODIFIED CLAY SORBENTS FOR WASTEWATER TREATMENT AND IMMOBILIZATION.

Dr. Martin T. Auer MTU Department of Civil & Environmental Engineering Water Treatment.

CE 510 Hazardous Waste Engineering Department of Civil Engineering Southern Illinois University Carbondale Instructor: Dr. L.R. Chevalier Lecture Series.

Adsorption Equilibrium Adsorption vs. Absorption –Adsorption is accumulation of molecules on a surface (a surface layer of molecules) in contact with an.

Defluoridation by Adsorption

Carbonaceous Adsorbents: Design, Fabrication and Application in Water Treatment Lunhong Ai Chemical Synthesis and Pollution Control Key Laboratory of Sichuan.

Adsorption. What is Adsorption? Adsorption is the transfer of a material from one liquid or gaseous state to a surface. The substance that is transferred.

Nurul Hafizah Mohd Nor, Nur Azhani Zainol Abidin, Nur Liyana Mohd Fozi, Nur Sulaihah Omar & Farahidah Mohamed Pharmaceutical Technology Department, Kulliyyah.

2 Amounts of Substance Learning Objectives: 2.1 A r & M r, Avogadro’s number, and the mole 2.2 Ideal Gas Law 2.3 Empirical and Molecular Formula 2.4 Moles.

IIUM Research, Invention and Innovation Exhibition 2011 ‘ Enhancing Quality Research and Innovation for Societal Development’ Farahidah Mohamed, Ahmad.

Li Yanping 讨论制备方法对光催化剂 CuO/TiO 2 活性的影响. Recent experimental summary Other researchers’ reports.

ADSORPTION OF FECAL COLIFORMS, ESCHERICHIA COLI IN DIFFERENT SOILS IN SARAWAK Ling Teck Yee, Goh Soon Hian and Kasing Apun Faculty of Resource Science.

Solutions Concentrations of Solutions. Solutions  Objectives  Given the mass of solute and volume of solvent, calculate the concentration of solution.

 Most reactions occur in aqueous solutions because water is cheap, easily accessible and dissolves many substances  Chemicals mix more completely when.

By Dr. Estee Yong Siek Ting

An efficient biosorption of direct dyes from industrial wastewaters using pretreated sugarcane bagasse.

© T Madas. 1 m = cm cm = mm 10 1 km = m m = cm cm = mm 40 3 km = m m = cm cm = mm km = m cm = m 4 80.

Oxidation of alcohols and sugars using Au/C catalysts Ramana Murthy.P M.Comotti,C.DellaPina,R.Matarrese,M.Rossi,A.Siani, Appl.Catal.A:Gen.291(2005)

Enhancement of Hydrogen Storage Capacity of Zeolite- Templated Carbons by Chemical Activation Muthukrishnan. I Sevilla, M.; Alam, N.; and Mokaya,

Background: Effective size: 2.09 nm 2.09 nm Obtaining large bio-compounds: separation and purification.

MnO 2 Resin and Automated Measurements of Ra Isotopes Bill Burnett Dept. Oceanography Florida State University.

4 th International Congress of the European Confederation of Soil Science Societies (ECSSS). 2-6 July 2012, Bari – Italy. Removal of Cr (VI) from industrial.

Radiolabeled Carbon Nanospheres as a Model Adsorbent for Superfine PAC in Membrane Breakthrough Connor Bilchak, Erin Partlan, David Ladner Department of.

Aerosol & Particulate Research Lab

Adsorption of Reactive Yellow-145 Dye on Iraqi Date Palm Seeds Activated Carbons Falah H. Hussein, Abbas J. Lafta, Ahmed F. Halbus, Zaineb S. Burhan, Hussein.

Reactor analysis (Mass balances, Flow models, Reactors)

New Mexico State University Crossing Borders and Communities for Healthy Water Joshua Gomez, Meng Zhou, Dr. Shuguang Deng Chemical and Materials Engineering.

An efficient sludge based activated carbon for anaerobic degradation of industrial effluents S. Athalathil a, E. Torrens a, A. Fortuny b, and A. Fabregat.

10 mm is the same as... 1 cm. 20 mm is the same as... 2 cm.

SIMULTANEOUS ADSORPTION OF 11 VOLATILE ORGANIC COMPOUNDS BY AN ACTIVATED CARBON MADE FROM POLYSTYRENE SULFONIC ACID-BASED ORGANIC SALT.

Dr Awajiogak Ujile Department of Chemical/Petrochemical Engineering

M. El-Sayed1, M. Ramzi2, R. Hosny2*, M. Fathy3 and Th. Abdel Moghny3

Percentage of Polyethylene

Properties Test results

ADSORPTION The removal of dissolved substances from solution using adsorbents such as activated carbon.

Bangi, Kajang, Selangor, Malaysia.

Activated Carbons from Herbaceous Bioenergy Crops

Joshua Gomez, Chemical Engineering.

location of refraction beam Maximum value of magnetic flux density

Adsorption 2018/7/1.

Fe-Al binary Oxide Nano-Sorbent: Synthesis, Characterization and Phosphate Sorption Behavior Tofik Ahmed, Abi.M.Taddesse, Tesfahun Kebede, Girma Goro.

Fathilah binti Ali, Hazleen Anuar and Raina Jama Awale

Shakeel Ahmad Khan*1, Sammia Shahid1

address: Novel Porous Materials for the Removal of Persistent Organic Pollutant (POPs) Yan Zhang 1, Marcia R. Silva 1, *, Yuting Lin.

Fabrication and Characterization of Chemical Vapor Deposition Buckypapers for Use in Air Sampling of Volatile Organic Compounds Jacob S. Shedd, Jonghwa.

M. ZGRZEBNICKI B. MICHALKIEWICZ A.GĘSIKIEWICZ-PUCHALSKA U. NARKIEWICZ

Institute of General and Inorganic Chemistry

Suspension Processing of Microporous Metal-Organic Frameworks: A Scalable Route to High-Quality Adsorbents Angelo Kirchon, Gregory S. Day, Yu Fang, Sayan.

Sing-On Teng#, Wen-Ta Chiu and Yuh-Shan Ho*

. The 50th International October Conference on Mining and Metallurgy

Yuting Lin, Yan Zhang, Marcia Silva

Novel Porous Material for the Removal of Heavy Metals from Water

original composite sorbent

Results and Discussion

Development of Activated Hydrochar from Paddy Straw

Converting Between Measures

Table 5. Water quality A3 well during pumping test

POSTER TITLE KERICE 2019 Presenter’s Name Poster ID: Abstract

Data from present research

Education, 2016, Vol. 4, No. 1, doi: /wjce-4-1-4

Presentation transcript:

Poster ID: 1471 HIGHLY EFFICIENT ACTIVATED CARBON FROM PALM SHELL AS AN ADSORBENT OF TOXIN/POISON IIUM Research, Invention and Innovation Exhibition 2013 M.M. Rahman, B. S. Mohsina, K.M. Sharif, B. Y. Kamaruzzaman b, M. B. Awang a Kulliyyah of Pharmacy, b Kulliyyah of Science, International Islamic University Malaysia Phone: , Fax: , Highly efficient activated carbon as an adsorbent of toxins has been successfully produced from palm shell through chemical activation process using phosphoric acid as activating agents. Palm shell is used as the main raw material for activated carbon production, which purchased from a local oil palm mill at Pahang, Malaysia. The surface area and pore diameter of the produced activated carbon was measured by Brunauer, Emmett and Teller (BET) theory. All characterization of produced activated carbon was ensured that it is highly efficient. Finally it is tested in vitro to determine its adsorbing capacity as an antidote for paraquat as a toxin. METHODOLOGY RESULT Figure 1: SEM of produced carbon by different temperature SUMMARY Sample IDTemperature ( 0 C)Surface Area (m 2 g -1 )Pore Volume (cm 3 g -1 ) T T T Adsorbed Paraquat on activated carbon (mg g -1 ) Adsorption conditionat 10 mgL -1 at 25mgL -1 at 50mgL -1 Saline free NaCl (0.9%) sol n Table 1: Effect of activation on treated activated carbon in pore diameter and pore volume with different Temperatures. Table 2: Removal of paraquat in different concentrations by activated carbon in saline free and NaCl (0.9%) saline solution CONCLUSION Highly efficient activated Carbon was prepared from palm shells by chemical activation in H 3 PO 4 maintained optimum temperature C for the removal of toxin. RELATED PUBLICATIONS 1.M. M. Rahman a*, M. Awang a, B. S. Mohosina a, B. Y. Kamaruzzaman b, W. B. Wan Nik c and C. M. C. Adnan c, (2012), “Waste Palm Shell Converted to High Efficient Activated Carbon by Chemical Activation Method and its Adsorption Capacity Tested by Water Filtration.” Vol. 2 (1), APCBEES Procedia, Vol. 1 (2012), 297–302. December, 2012 / Scopus 2.Md. Mokhlesur Rahman 1*, Mohamed Awang 1, Mohosina Binty Shajahan 1, Tariq Abdul Razak 1 and KamaruzzamanYunus 2 “A highly efficient activated carbon by chemical activation method for adsorption of paraquat (toxin).” Materials Science Forum, Press, 2013 / ISI Figure 4: Adsorption isotherm of paraquat Commercial and produced activated carbon Product as tablet form Characterization BET Isotherm AuthorRaw materialActivating agent TemperatureSurface areaPore volume Mohosina shahjahan et. al Palm shellH 3 PO C1287m 2 /g0.74 Allwar et. alPalm shellZnCl C1297m 2 /g0.71 Devarly Prahas et.al Jackfruit peelH 3 PO C1260m 2 /g0.73 Hondu et. alCoconut shellNA 849NA Miyoshi et. alPetroleum pitchNA 1081NA Table 3: Comparison of surface area property between activated carbon produced in this study and activated carbon produced by other researchers 665 EVO 50 Scanning Electron Microscope (SEM) LEICA EM SC005 Auto Fine Coater Raw Palm shell